shifter limits for applied force?

I am working on a custom set-up that is going to need to use a friction or indexing shifter (most likely bar end). Something I need to know is what sort of tensile force applied to the cable are most shifters able to handle?

It's not necessarily the cables that I was wondering about. I am more concerned about what sort of forces the friction or indexing shifter are capable of handling. Such as, what force can you apply to the cable before the the shifter will move?

When I had downtube shifters, the friction had to be adjusted really tight (and often) or the bike would shift up or start clacking occasionally when I was out of the saddle. I've never had that problem with STI.

It's not necessarily the cables that I was wondering about. I am more concerned about what sort of forces the friction or indexing shifter are capable of handling. Such as, what force can you apply to the cable before the the shifter will move?

It's not necessarily the cables that I was wondering about. I am more concerned about what sort of forces the friction or indexing shifter are capable of handling. Such as, what force can you apply to the cable before the the shifter will move?

Thanks

I seriously doubt that you will find a specification for this. Shifters are designed to work with derailleurs and the normal forces they apply to them. Beyond that, you are on your own.

If you are planning to use a bike shifter in some other application than moving a derailleur through a low friction cable setup, then you may need to purchase a shifter and do some pull testing on your own.

I think it's a good question. I've never pursued exact measures in lbF or N or whatever, but I have been curious about the friction shifter adjustment being optimal (easily shifted but still able to resist the derailer return springs). I've also wished I could significantly tighten the return springs just to see if they felt "crisper" on the release shift and whether it caused problems on the pull shift. --all fun things to think about.

I think in the case of bar end shifters the hinge is going to fail before the handle/lever or the shifter/handlebar interface. It'd be relatively easy to figure out the force applied on the hinge if you knew how hard you were going to pull the cable - but I don't have any idea what the limit would be. It sort of sounds like you know all this already though

FYI, the reason I asked is that I am working on a project involving a hand powered cycle. Basically, I need a mechanism to disengage the driven element from the clutch and I figured a shifting lever was probably the simplest solution for this.